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MultiFusionNet: Multilayer Multimodal Fusion of Deep Neural Networks for Chest X-Ray Image Classification
Published 1 Jan 2024 in eess.IV, cs.CV, and cs.LG | (2401.00728v1)
Abstract: Chest X-ray imaging is a critical diagnostic tool for identifying pulmonary diseases. However, manual interpretation of these images is time-consuming and error-prone. Automated systems utilizing convolutional neural networks (CNNs) have shown promise in improving the accuracy and efficiency of chest X-ray image classification. While previous work has mainly focused on using feature maps from the final convolution layer, there is a need to explore the benefits of leveraging additional layers for improved disease classification. Extracting robust features from limited medical image datasets remains a critical challenge. In this paper, we propose a novel deep learning-based multilayer multimodal fusion model that emphasizes extracting features from different layers and fusing them. Our disease detection model considers the discriminatory information captured by each layer. Furthermore, we propose the fusion of different-sized feature maps (FDSFM) module to effectively merge feature maps from diverse layers. The proposed model achieves a significantly higher accuracy of 97.21% and 99.60% for both three-class and two-class classifications, respectively. The proposed multilayer multimodal fusion model, along with the FDSFM module, holds promise for accurate disease classification and can also be extended to other disease classifications in chest X-ray images.
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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2020) \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2021) \APACinsertmetastarKHAN2021111{APACrefauthors}Khan, A., Chefranov, A.\BCBL Demirel, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleImage scene geometry recognition using low-level features fusion at multi-layer deep CNN Image scene geometry recognition using low-level features fusion at multi-layer deep cnn.\BBCQ \APACjournalVolNumPagesNeurocomputing440111–126. \PrintBackRefs\CurrentBib A.I. Khan \BOthers. (\APACyear2020) \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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Chest x-ray images (pneumonia). {APACrefURL} https://v.ht/WwR25 \PrintBackRefs\CurrentBib Kaggle (\APACyear2021\APACexlab\BCnt2) \APACinsertmetastar27{APACrefauthors}Kaggle \APACrefYearMonthDay2021\BCnt2. \APACrefbtitleCOVID-Net Open Source Initiative - COVIDx CXR-3 Dataset. Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2020) \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2020) \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarIERACITANO2022202{APACrefauthors}Ieracitano, C., Mammone, N., Versaci, M., Varone, G., Ali, A\BHBIR., Armentano, A.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA fuzzy-enhanced deep learning approach for early detection of Covid-19 pneumonia from portable chest X-ray images A fuzzy-enhanced deep learning approach for early detection of covid-19 pneumonia from portable chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing481202–215. \PrintBackRefs\CurrentBib Ilhan \BOthers. 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(\APACyear2020) \APACinsertmetastarjacobi2020portable{APACrefauthors}Jacobi, A., Chung, M., Bernheim, A.\BCBL Eber, C. \APACrefYearMonthDay2020. \BBOQ\APACrefatitlePortable chest X-ray in coronavirus disease-19 (COVID-19): A pictorial review Portable chest x-ray in coronavirus disease-19 (covid-19): A pictorial review.\BBCQ \APACjournalVolNumPagesClinical imaging6435–42. \PrintBackRefs\CurrentBib Kaggle (\APACyear2021\APACexlab\BCnt1) \APACinsertmetastar26{APACrefauthors}Kaggle \APACrefYearMonthDay2021\BCnt1. \APACrefbtitleChest X-Ray Images (Pneumonia). Chest x-ray images (pneumonia). {APACrefURL} https://v.ht/WwR25 \PrintBackRefs\CurrentBib Kaggle (\APACyear2021\APACexlab\BCnt2) \APACinsertmetastar27{APACrefauthors}Kaggle \APACrefYearMonthDay2021\BCnt2. \APACrefbtitleCOVID-Net Open Source Initiative - COVIDx CXR-3 Dataset. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2020) \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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Chest x-ray images (pneumonia). {APACrefURL} https://v.ht/WwR25 \PrintBackRefs\CurrentBib Kaggle (\APACyear2021\APACexlab\BCnt2) \APACinsertmetastar27{APACrefauthors}Kaggle \APACrefYearMonthDay2021\BCnt2. \APACrefbtitleCOVID-Net Open Source Initiative - COVIDx CXR-3 Dataset. Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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Chest x-ray images (pneumonia). {APACrefURL} https://v.ht/WwR25 \PrintBackRefs\CurrentBib Kaggle (\APACyear2021\APACexlab\BCnt2) \APACinsertmetastar27{APACrefauthors}Kaggle \APACrefYearMonthDay2021\BCnt2. \APACrefbtitleCOVID-Net Open Source Initiative - COVIDx CXR-3 Dataset. Covid-net open source initiative - covidx cxr-3 dataset. {APACrefURL} https://www.kaggle.com/andyczhao/COVIDx-cxr2?select= test \PrintBackRefs\CurrentBib Kaya \BBA Gürsoy (\APACyear2023) \APACinsertmetastarkaya2023mobilenet{APACrefauthors}Kaya, Y.\BCBT \BBA Gürsoy, E. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleA MobileNet-based CNN model with a novel fine-tuning mechanism for COVID-19 infection detection A mobilenet-based cnn model with a novel fine-tuning mechanism for covid-19 infection detection.\BBCQ \APACjournalVolNumPagesSoft Computing1–15. \PrintBackRefs\CurrentBib A. Khan \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCoroNet{APACrefauthors}Khan, A.I., Shah, J.L.\BCBL Bhat, M.M. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCoroNet: A deep neural network for detection and diagnosis of COVID-19 from chest x-ray images Coronet: A deep neural network for detection and diagnosis of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesComputer Methods and Programs in Biomedicine196105581. \PrintBackRefs\CurrentBib Kingma \BBA Ba (\APACyear2014) \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarkingma2014adam{APACrefauthors}Kingma, D.P.\BCBT \BBA Ba, J. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleAdam: A method for stochastic optimization Adam: A method for stochastic optimization.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1412.6980. \PrintBackRefs\CurrentBib Krizhevsky \BOthers. (\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2012) \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarAlexNet{APACrefauthors}Krizhevsky, A., Sutskever, I.\BCBL Hinton, G.E. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImagenet classification with deep convolutional neural networks Imagenet classification with deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesAdvances in neural information processing systems25. \PrintBackRefs\CurrentBib LeCun \BOthers. (\APACyear1989) \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. 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(\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarLeNet{APACrefauthors}LeCun, Y., Boser, B., Denker, J.S., Henderson, D., Howard, R.E., Hubbard, W.\BCBL Jackel, L.D. \APACrefYearMonthDay1989. \BBOQ\APACrefatitleBackpropagation applied to handwritten zip code recognition Backpropagation applied to handwritten zip code recognition.\BBCQ \APACjournalVolNumPagesNeural computation14541–551. \PrintBackRefs\CurrentBib Li \BOthers. (\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. 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(\APACyear2022) \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzheng{APACrefauthors}Li, Z., Xu, X., Cao, X., Liu, W., Zhang, Y., Chen, D.\BCBL Dai, H. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleIntegrated CNN and Federated Learning for COVID-19 Detection on Chest X-Ray Images Integrated cnn and federated learning for covid-19 detection on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib Meena \BBA Arya (\APACyear2023) \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarmeena2023multimodal{APACrefauthors}Meena, Y.K.\BCBT \BBA Arya, K. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleMultimodal interaction and IoT applications Multimodal interaction and iot applications.\BBCQ \APACjournalVolNumPagesMultimedia Tools and Applications8244781–4785. \PrintBackRefs\CurrentBib Mohagheghi \BOthers. (\APACyear2021) \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarMohagheghi{APACrefauthors}Mohagheghi, S., Alizadeh, M., Safavi, S.M., Foruzan, A.H.\BCBL Chen, Y\BHBIW. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleIntegration of CNN, CBMIR, and visualization techniques for diagnosis and quantification of covid-19 disease Integration of cnn, cbmir, and visualization techniques for diagnosis and quantification of covid-19 disease.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2561873–1880. \PrintBackRefs\CurrentBib Muhammad \BBA Hossain (\APACyear2021) \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarultra-sound{APACrefauthors}Muhammad, G.\BCBT \BBA Hossain, M.S. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 and non-COVID-19 classification using multi-layers fusion from lung ultrasound images Covid-19 and non-covid-19 classification using multi-layers fusion from lung ultrasound images.\BBCQ \APACjournalVolNumPagesInformation Fusion7280–88. \PrintBackRefs\CurrentBib Narin \BOthers. (\APACyear2021) \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarNarin_2021{APACrefauthors}Narin, A., Kaya, C.\BCBL Pamuk, Z. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleAutomatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks Automatic detection of coronavirus disease (covid-19) using x-ray images and deep convolutional neural networks.\BBCQ \APACjournalVolNumPagesPattern Analysis and Applications2431207–1220. \PrintBackRefs\CurrentBib Ozturk \BOthers. (\APACyear2020) \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarDarkCovidNet{APACrefauthors}Ozturk, T., Talo, M., Yildirim, E.A., Baloglu, U.B., Yildirim, O.\BCBL Acharya, U.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleAutomated detection of COVID-19 cases using deep neural networks with X-ray images Automated detection of covid-19 cases using deep neural networks with x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine121103792. \PrintBackRefs\CurrentBib Pan \BBA Yang (\APACyear2009) \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar6{APACrefauthors}Pan, S.J.\BCBT \BBA Yang, Q. \APACrefYearMonthDay2009. \BBOQ\APACrefatitleA survey on transfer learning A survey on transfer learning.\BBCQ \APACjournalVolNumPagesIEEE Transactions on knowledge and data engineering22101345–1359. \PrintBackRefs\CurrentBib Pathak \BOthers. (\APACyear2020) \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. 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(\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarpathak{APACrefauthors}Pathak, Y., Shukla, P.K.\BCBL Arya, K. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleDeep bidirectional classification model for COVID-19 disease infected patients Deep bidirectional classification model for covid-19 disease infected patients.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics1841234–1241. \PrintBackRefs\CurrentBib Quilodrán-Casas \BOthers. (\APACyear2022) \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarQUILODRANCASAS202211{APACrefauthors}Quilodrán-Casas, C., Silva, V.L., Arcucci, R., Heaney, C.E., Guo, Y.\BCBL Pain, C.C. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleDigital twins based on bidirectional LSTM and GAN for modelling the COVID-19 pandemic Digital twins based on bidirectional lstm and gan for modelling the covid-19 pandemic.\BBCQ \APACjournalVolNumPagesNeurocomputing47011–28. \PrintBackRefs\CurrentBib Rahimzadeh \BBA Attar (\APACyear2020) \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarRAHIMZADEH2020100360{APACrefauthors}Rahimzadeh, M.\BCBT \BBA Attar, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleA modified deep convolutional neural network for detecting COVID-19 and pneumonia from chest X-ray images based on the concatenation of Xception and ResNet50V2 A modified deep convolutional neural network for detecting covid-19 and pneumonia from chest x-ray images based on the concatenation of xception and resnet50v2.\BBCQ \APACjournalVolNumPagesInformatics in medicine unlocked19100360. \PrintBackRefs\CurrentBib Rahman \BOthers. (\APACyear2021) \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
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(\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastar25{APACrefauthors}Rahman, T., Khandakar, A., Qiblawey, Y., Tahir, A., Kiranyaz, S., Kashem, S.B.A.\BDBLothers \APACrefYearMonthDay2021. \BBOQ\APACrefatitleExploring the effect of image enhancement techniques on COVID-19 detection using chest X-ray images Exploring the effect of image enhancement techniques on covid-19 detection using chest x-ray images.\BBCQ \APACjournalVolNumPagesComputers in biology and medicine132104319. \PrintBackRefs\CurrentBib Shi \BOthers. (\APACyear2021) \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarshi{APACrefauthors}Shi, W., Tong, L., Zhu, Y.\BCBL Wang, M.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleCOVID-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks Covid-19 automatic diagnosis with radiographic imaging: Explainable attention transfer deep neural networks.\BBCQ \APACjournalVolNumPagesIEEE Journal of Biomedical and Health Informatics2572376–2387. \PrintBackRefs\CurrentBib Simonyan \BBA Zisserman (\APACyear2014) \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarVGG{APACrefauthors}Simonyan, K.\BCBT \BBA Zisserman, A. \APACrefYearMonthDay2014. \BBOQ\APACrefatitleVery deep convolutional networks for large-scale image recognition Very deep convolutional networks for large-scale image recognition.\BBCQ \APACjournalVolNumPagesarXiv preprint arXiv:1409.1556. \PrintBackRefs\CurrentBib Srivastava \BOthers. (\APACyear2022) \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsrivastava2022covixnet{APACrefauthors}Srivastava, G., Chauhan, A., Jangid, M.\BCBL Chaurasia, S. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCoviXNet: A novel and efficient deep learning model for detection of COVID-19 using chest X-Ray images Covixnet: A novel and efficient deep learning model for detection of covid-19 using chest x-ray images.\BBCQ \APACjournalVolNumPagesBiomedical Signal Processing and Control78103848. \PrintBackRefs\CurrentBib Subramanian \BOthers. (\APACyear2022) \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarsubramanian2022review{APACrefauthors}Subramanian, N., Elharrouss, O., Al-Maadeed, S.\BCBL Chowdhury, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleA review of deep learning-based detection methods for COVID-19 A review of deep learning-based detection methods for covid-19.\BBCQ \APACjournalVolNumPagesComputers in Biology and Medicine105233. \PrintBackRefs\CurrentBib Szegedy \BOthers. (\APACyear2017) \APACinsertmetastarinception{APACrefauthors}Szegedy, C., Ioffe, S., Vanhoucke, V.\BCBL Alemi, A.A. \APACrefYearMonthDay2017. \BBOQ\APACrefatitleInception-v4, inception-resnet and the impact of residual connections on learning Inception-v4, inception-resnet and the impact of residual connections on learning.\BBCQ \APACrefbtitleThirty-first AAAI conference on artificial intelligence. Thirty-first aaai conference on artificial intelligence. \PrintBackRefs\CurrentBib Tabik \BOthers. (\APACyear2020) \APACinsertmetastarTabik{APACrefauthors}Tabik, S., Gómez-RÃos, A., MartÃn-RodrÃguez, J.L., Sevillano-GarcÃa, I., Rey-Area, M., Charte, D.\BDBLothers \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCOVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on chest X-ray images Covidgr dataset and covid-sdnet methodology for predicting covid-19 based on chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE journal of biomedical and health informatics24123595–3605. \PrintBackRefs\CurrentBib Tan \BOthers. (\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2022) \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. (\APACyear2021) \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTrans-edl{APACrefauthors}Tang, S., Wang, C., Nie, J., Kumar, N., Zhang, Y., Xiong, Z.\BCBL Barnawi, A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEDL-COVID: Ensemble deep learning for COVID-19 case detection from chest X-ray images Edl-covid: Ensemble deep learning for covid-19 case detection from chest x-ray images.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Industrial Informatics1796539–6549. \PrintBackRefs\CurrentBib Tangudu \BOthers. (\APACyear2022) \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarTAN202236{APACrefauthors}Tan, T., Das, B., Soni, R., Fejes, M., Yang, H., Ranjan, S.\BDBLothers \APACrefYearMonthDay2022. \BBOQ\APACrefatitleMulti-modal trained artificial intelligence solution to triage chest X-ray for COVID-19 using pristine ground-truth, versus radiologists Multi-modal trained artificial intelligence solution to triage chest x-ray for covid-19 using pristine ground-truth, versus radiologists.\BBCQ \APACjournalVolNumPagesNeurocomputing48536–46. \PrintBackRefs\CurrentBib Tang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. (\APACyear2020) \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. (\APACyear2020) \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastartangudu2022covid{APACrefauthors}Tangudu, V., Kakarla, J.\BCBL Venkateswarlu, I.B. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCOVID-19 detection from chest x-ray using MobileNet and residual separable convolution block Covid-19 detection from chest x-ray using mobilenet and residual separable convolution block.\BBCQ \APACjournalVolNumPagesSoft Computing2652197–2208. \PrintBackRefs\CurrentBib Waheed \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidgan{APACrefauthors}Waheed, A., Goyal, M., Gupta, D., Khanna, A., Al-Turjman, F.\BCBL Pinheiro, P.R. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection Covidgan: data augmentation using auxiliary classifier gan for improved covid-19 detection.\BBCQ \APACjournalVolNumPagesIeee Access891916–91923. \PrintBackRefs\CurrentBib L. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. (\APACyear2023) \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. (\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarCovidnet{APACrefauthors}Wang, L., Lin, Z.Q.\BCBL Wong, A. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleCovid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images Covid-net: A tailored deep convolutional neural network design for detection of covid-19 cases from chest x-ray images.\BBCQ \APACjournalVolNumPagesScientific Reports1011–12. \PrintBackRefs\CurrentBib S\BHBIH. Wang \BOthers. 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(\APACyear2021) \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwang2023elucnn{APACrefauthors}Wang, S\BHBIH., Satapathy, S.C., Xie, M\BHBIX.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleELUCNN for explainable COVID-19 diagnosis Elucnn for explainable covid-19 diagnosis.\BBCQ \APACjournalVolNumPagesSoft Computing1–17. \PrintBackRefs\CurrentBib WHO (\APACyear2022) \APACinsertmetastarPneumoniaDashboard{APACrefauthors}WHO \APACrefYearMonthDay2022. \APACrefbtitlePneumonia. Pneumonia. {APACrefURL} https://v.ht/X2oOi \PrintBackRefs\CurrentBib Wu \BOthers. 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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. 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(\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
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(\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarwu2021evolving{APACrefauthors}Wu, C., Khishe, M., Mohammadi, M., Taher Karim, S.H.\BCBL Rashid, T.A. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. 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(\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2021. \BBOQ\APACrefatitleEvolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time COVID19 diagnosis from X-ray images Evolving deep convolutional neutral network by hybrid sine–cosine and extreme learning machine for real-time covid19 diagnosis from x-ray images.\BBCQ \APACjournalVolNumPagesSoft Computing1–20. \PrintBackRefs\CurrentBib Xu \BOthers. (\APACyear2021) \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarXU202196{APACrefauthors}Xu, Y., Lam, H\BHBIK.\BCBL Jia, G. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2021. \BBOQ\APACrefatitleMANet: A two-stage deep learning method for classification of COVID-19 from Chest X-ray images Manet: A two-stage deep learning method for classification of covid-19 from chest x-ray images.\BBCQ \APACjournalVolNumPagesNeurocomputing44396–105. \PrintBackRefs\CurrentBib Yu \BOthers. (\APACyear2021) \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarYU2021592{APACrefauthors}Yu, X., Lu, S., Guo, L., Wang, S\BHBIH.\BCBL Zhang, Y\BHBID. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2021. \BBOQ\APACrefatitleResGNet-C: A graph convolutional neural network for detection of COVID-19 Resgnet-c: A graph convolutional neural network for detection of covid-19.\BBCQ \APACjournalVolNumPagesNeurocomputing452592–605. \PrintBackRefs\CurrentBib Zhou \BOthers. (\APACyear2021) \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib \APACinsertmetastarzhou{APACrefauthors}Zhou, J., Jing, B., Wang, Z., Xin, H.\BCBL Tong, H. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2021. \BBOQ\APACrefatitleSoda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation Soda: Detecting covid-19 in chest x-rays with semi-supervised open set domain adaptation.\BBCQ \APACjournalVolNumPagesIEEE/ACM Transactions on Computational Biology and Bioinformatics. \PrintBackRefs\CurrentBib
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